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兰州大学机构库

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An iron-doped nickel diselenide catalyst for highly efficient oxygen evolution reaction 期刊论文
JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS, 2023, 期号: WOS:001046826400001, 页码: Chemistry;Physics
Authors:  Yang, Guijin;  Jiao, Jingru;  Fu, Yujun;  Lin, Yanna;  Wang, Weiwei;  Gao, DQ(高大强);  Li, Jinyun
Favorite  |    Submit date:2023/09/04
Nickel diselenide (NiSe 2 )  Oxygen evolution reaction  Iron doping  Electrocataly  
An iron-doped nickel diselenide catalyst for highly efficient oxygen evolution reaction 期刊论文
Journal of Physics and Chemistry of Solids, 2023, 卷号: 182
Authors:  Yang, Guijin;  Jiao, Jingru;  Fu, Yujun;  Lin, Yanna;  Wang, Weiwei;  Gao, DQ(高大强);  Li, Jinyun
Favorite  |    Submit date:2023/09/04
Charge transfer  Electrocatalysis  Electrocatalysts  Iron compounds  Oxygen  Oxygen evolution reaction  Potassium hydroxide  Precious metals  Renewable energy resources  Selenium compounds  Carbon cloths  Electrocataly  Fe-doped  High catalytic performance  Iron doping  Iron-doped  Low-costs  Nickel diselenide (nise2)  Renewable energy technologies  ]+ catalyst  
金塔沙地不同人工林下草本植物多样性与土壤性质的关系 期刊论文
草地学报, 2023, 卷号: 31, 期号: 06, 页码: 1834-1841
Authors:  胡广德;  周继强;  达军山;  雷隆举;  赵长兴;  李超男;  周自强;  刘金荣
Favorite  |    Submit date:2023/07/18
金塔沙地  人工林  草本植物多样性  土壤理化性质  
金塔沙地不同人工林下草本植物多样性与土壤性质的关系 期刊论文
草地学报, 2023, 卷号: 31, 期号: 06, 页码: 1834-1841
Authors:  胡广德;  周继强;  达军山;  雷隆举;  赵长兴;  李超男;  周自强;  刘金荣
Favorite  |    Submit date:2023/09/04
金塔沙地  人工林  草本植物多样性  土壤理化性质  
BNZ组分对KNN基无铅压电陶瓷结构和性能的影响 期刊论文
材料研究学报, 2023, 页码: 1-14
Authors:  李博森;  廖忠新;  高大强
Favorite  |    Submit date:2023/07/18
无机非金属材料  压电陶瓷  铌酸钾钠  纳米畴  温度稳定性  
In-situ magnetic field enhanced performances in ferromagnetic FeCo2O4 Nanofibers-based rechargeable Zinc–air batteries 期刊论文
Journal of Energy Chemistry, 2023, 卷号: 78, 页码: 447-453
Authors:  Zhang, Zhengmei;  Jia, Lei;  Li, Tong;  Qian, Jinmei;  Liang, Xiaolei;  Xue, DS(薛德胜);  Gao, DQ(高大强)
Favorite  |    Submit date:2023/04/12
Charge transfer  Cobalt compounds  Electrocatalysis  Electrocatalysts  Ferromagnetic materials  Ferromagnetism  Gas adsorption  Indium compounds  Iron compounds  Nanofibers  Oxygen  Zinc  Zinc air batteries  Electrocatalytic activity  Electrocatalytic reactions  External magnetic field  Ferromagnetics  Hybridisation  In-situ magnetic field  Magnetic-field  Performance  Rechargeable zinc-air batteries  Spin hybridization  
In-situ magnetic field enhanced performances in ferromagnetic FeCo2O4 Nanofibers-based rechargeable Zinc–air batteries 期刊论文
Journal of Energy Chemistry, 2023, 卷号: 78, 页码: 447-453
Authors:  Zhang, Zhengmei;  Jia, Lei;  Li, Tong;  Qian, Jinmei;  Liang, Xiaolei;  Xue, DS(薛德胜);  Gao, DQ(高大强)
Favorite  |    Submit date:2023/05/25
Charge transfer  Cobalt compounds  Electrocatalysis  Electrocatalysts  Ferromagnetic materials  Ferromagnetism  Gas adsorption  Indium compounds  Iron compounds  Nanofibers  Oxygen  Zinc  Zinc air batteries  Electrocatalytic activity  Electrocatalytic reactions  External magnetic field  Ferromagnetics  Hybridisation  In-situ magnetic field  Magnetic-field  Performance  Rechargeable zinc-air batteries  Spin hybridization  
In-situ magnetic field enhanced performances in ferromagnetic FeCo2O4 nanofibers-based rechargeable Zinc-air batteries 期刊论文
JOURNAL OF ENERGY CHEMISTRY, 2023, 卷号: 78, 页码: 447-453
Authors:  Zhang, Zhengmei;  Jia, Lei;  Li, Tong;  Qian, Jinmei;  Liang, Xiaolei;  Xue, DS(薛德胜);  Gao, DQ(高大强)
Favorite  |    Submit date:2023/05/25
In -situ magnetic field  Oxygen evolution reaction  Spin hybridization  Zn-air battery  
In-situ magnetic field enhanced performances in ferromagnetic FeCo2O4 Nanofibers-based rechargeable Zinc–air batteries 期刊论文
Journal of Energy Chemistry, 2023, 卷号: 78, 页码: 447-453
Authors:  Zhang, Zhengmei;  Jia, Lei;  Li, Tong;  Qian, Jinmei;  Liang, Xiaolei;  Xue, DS(薛德胜);  Gao, DQ(高大强)
Favorite  |    Submit date:2023/07/18
Charge transfer  Cobalt compounds  Electrocatalysis  Electrocatalysts  Ferromagnetic materials  Ferromagnetism  Gas adsorption  Indium compounds  Iron compounds  Nanofibers  Oxygen  Zinc  Zinc air batteries  Electrocatalytic activity  Electrocatalytic reactions  External magnetic field  Ferromagnetics  Hybridisation  In-situ magnetic field  Magnetic-field  Performance  Rechargeable zinc-air batteries  Spin hybridization  
In-situ magnetic field enhanced performances in ferromagnetic FeCo2O4 nanofibers-based rechargeable Zinc-air batteries 期刊论文
JOURNAL OF ENERGY CHEMISTRY, 2023, 卷号: 78, 页码: 447-453
Authors:  Zhang, Zhengmei;  Jia, Lei;  Li, Tong;  Qian, Jinmei;  Liang, Xiaolei;  Xue, DS(薛德胜);  Gao, DQ(高大强)
Favorite  |    Submit date:2023/07/18
In -situ magnetic field  Oxygen evolution reaction  Spin hybridization  Zn-air battery